Power converter, an electric power system, and a method for controlling an electric power system

1. A power converter for an inductive load having one or more inductive windings, the power converter comprising: a switching circuit comprising direct voltage rails, a first direct voltage terminal for connecting the direct voltage rails to first direct voltage, a second direct voltage terminal for connecting the direct voltage rails to second direct voltage, a supply voltage terminal for connecting to the one or more inductive windings, first controllable switches between a first one of the direct voltage rails and the supply voltage terminal, and second controllable switches between a second one of the direct voltage rails and the supply voltage terminal, and a controller for controlling, in a first operating mode of the power converter, the switching circuit to produce one or more supply voltages on the supply voltage terminal, wherein the power converter further comprises a contactor system for disconnecting, in a second operating mode of the power converter, a pole of the second direct voltage terminal from the first one of the direct voltage rails and for connecting the pole of the second direct voltage terminal to at least one of the inductive windings and the supply voltage terminal, wherein the controller is configured to control, in the second operating mode, one or more of the first controllable switches to alternate between conductive and non-conductive states so as to operate the switching circuit and the at least one of the inductive windings as a voltage-decreasing direct voltage converter between the first and second direct voltage terminals.

2. The power converter according to claim 1 , wherein the controller is configured to control, in the second operating mode, two or more of the first controllable switches to alternate between conductive and non-conductive states.

3. The power converter according to claim 2 , wherein the controller is configured to operate, in the second operating mode, the two or more of the first controllable switches in a phase-shifted way so as to reduce ripple of direct current supplied via the second direct voltage terminal.

4. The power converter according to claim 1 , wherein the contactor system is configured to connect, in the second operating mode, one pole of the supply voltage terminal to the pole of the second direct voltage terminal.

5. The power converter according to claim 1 , wherein the switching circuit is an inverter-bridge.

6. The power converter according to claim 1 , wherein the controller is configured to control, in a third operating mode of the power converter, one or more of the second controllable switches to alternate between conductive and non-conductive states so as to operate the switching circuit and the at least one of the inductive windings as a voltage-increasing direct voltage converter for transferring electric energy from the second direct voltage terminal to the first direct voltage terminal.

7. An electric power system comprising: a power converter according to claim 1 , a direct voltage energy source connected to the first direct voltage terminal of the power converter, a direct voltage energy storage connected to the second direct voltage terminal of the power converter, and a rotating electric machine having one or more windings connected to the supply voltage terminal of the power converter.

8. The electric power system according to claim 7 , wherein the power converter, and the windings of the rotating electric machine are arranged to constitute a multiphase stator winding.

9. The electric power system according to claim 8 , wherein the multiphase stator winding is a star connected winding and the contactor system of the power converter is configured to connect, in the second operating mode of the power converter, the pole of the second direct voltage terminal of the power converter to a star-point of the star connected winding.

10. The electric power system according to claim 8 , wherein the contactor system of the power converter is configured to connect, in the second operating mode of the power converter, the pole of the second direct voltage terminal of the power converter to a phase conductor of the multiphase stator windings.

11. A method for controlling an electric power system that comprises: a rotating electric machine having one or more windings, and a power converter comprising a switching circuit having direct voltage rails, a first direct voltage terminal for connecting the direct voltage rails to first direct voltage, a second direct voltage terminal for connecting the direct voltage rails to second direct voltage, a supply voltage terminal connected to the windings of the rotating electric machine, first controllable switches between a first one of the direct voltage rails and the supply voltage terminal, and second controllable switches between a second one of the direct voltage rails and the supply voltage terminal, the method comprising, in a first operating mode of the electric power system, controlling the power converter to drive the rotating electric machine, wherein the method comprises in a second operating mode of the electric power system: controlling a contactor system to disconnect a pole of the second direct voltage terminal from the first one of the direct voltage rails and to connect the pole of the second direct voltage terminal to at least one of the windings of the rotating electric machine, and controlling one or more of the first controllable switches to alternate between conductive and non-conductive states so as to operate the switching circuit and the at least one of the windings of the rotating electric machine as a voltage-decreasing direct voltage converter between the first and second direct voltage terminals.

12. The method according to claim 11 , wherein two or more of the first controllable switches are controlled to alternate between conductive and non-conductive states in the second operating mode.

13. The method according to claim 12 , wherein the two or more of the first controllable switches are operated in a phase-shifted way so as to reduce ripple of direct current supplied via the second direct voltage terminal.

14. A computer program for controlling an electric power system that comprises: a rotating electric machine having one or more windings, and a power converter comprising a switching circuit having direct voltage rails, a first direct voltage terminal for connecting the direct voltage rails to first direct voltage, a second direct voltage terminal for connecting the direct voltage rails to second direct voltage, a supply voltage terminal connected to the windings of the rotating electric machine, first controllable switches between a first one of the direct voltage rails and the supply voltage terminal, and second controllable switches between a second one of the direct voltage rails and the supply voltage terminal, the computer program comprising computer executable instructions for controlling, in a first operating mode of the electric power system, a programmable processing system to control the power converter to drive the rotating electric machine, wherein the computer program further comprises computer executable instructions for controlling, in a second operating mode of the electric power system, the programmable processing system to: control a contactor system to disconnect a pole of the second direct voltage terminal from the first one of the direct voltage rails and to connect the pole of the second direct voltage terminal to at least one of the windings of the rotating electric machine, and control one or more of the first controllable switches to alternate between conductive and non-conductive states so as to operate the switching circuit and the at least one of the windings of the rotating electric machine as a voltage-decreasing direct voltage converter between the first and second direct voltage terminals.

15. A computer program product comprising a non-transitory computer readable medium encoded with a computer program according to claim 14 .

16. The power converter according to claim 2 , wherein the contactor system is configured to connect, in the second operating mode, one pole of the supply voltage terminal to the pole of the second direct voltage terminal.

17. The power converter according to claim 3 , wherein the contactor system is configured to connect, in the second operating mode, one pole of the supply voltage terminal to the pole of the second direct voltage terminal.

18. The power converter according to claim 2 , wherein the switching circuit is an inverter-bridge.

19. The power converter according to claim 3 , wherein the switching circuit is an inverter-bridge.

20. The power converter according to claim 4 , wherein the switching circuit is an inverter-bridge.